Modular storage system

ABSTRACT

A modular system for storage of cargo units in a designated space. The modular system includes: a plurality of interconnected active cell units, each cell unit including a cell transporting mechanism with at least one active shuttle unit moveable between the plurality of cell units. Each shuttle unit includes a shuttle transporting mechanism adapted to transport at least one pallet of the plurality of pallets to and from one of the plurality of cell units and also to and from at least one shuttle unit. The system also includes a central controller adapted to control the operation of the cell and the shuttle transporting mechanisms, the operation of which is performed in an independent manner via the central controller such that a construction of any arrangement of the cell units is performed to effectively exploit a designated space.

FIELD OF THE INVENTION

The present invention generally relates to a modular storage system, andmore specifically, to system an automatic multi-dimensional parkingsystem which enables effective exploitation of any available plot ofland, or any other location.

BACKGROUND OF THE INVENTION

The problem of providing storage spaces (e.g., parking) for cargo (e.g.,vehicles) is becoming increasingly serious. For example, there is agrowing demand for parking spaces which is accompanied with a decreasein supply of land available for such parking spaces, particularly indensely populated areas.

Automated parking garage systems have been employed since the late1950's utilizing crane systems, conveyers, hydraulics and pneumatics totransport and store vehicle within a parking structure. Recently, moreadvanced garage systems have been developed which includecomputer-controlled, specialized equipment for carrying vehicles toassigned parking spaces in a way similar to the way that computerizedassembly lines or warehouses store and retrieve miscellaneous goods. Insuch assembly line and warehouse systems, a computer assigns a locationfor each item as it is received from its manufacturer, and roboticequipment carries each item to its assigned location. The same equipmentis dispatched to the location when the item requires retrieval. Often,the items stored in a warehouse are placed on pallets to facilitatetransportation and storage of the items. The use of pallets assupporting elements for the transport and storing of vehicles is alsotypical of more advanced automated parking garage systems.

Examples of automated parking garage systems are described in U.S. Pat.No. 5,467,561 of Takaoka, U.S. Pat. No. 5,556,246 of Broshi, U.S. Pat.No. 5,573,364 of Schneider et al., and U.S. Pat. No. 5,669,753 ofSchween.

U.S. Pat. No. 5,467,561 discloses an automated high-raised parkingsystem. The system has a parking construction including a parking rackstructure having a plurality of stories of parking racks for parking anautomobile as mounted on a pallet, a lift passage for a lift-translatordevice, the passage being formed besides the parking racks. Thelift-translator device includes a lift table and a translator device. Anautomobile entrance/exit section is provided for allowing entrance andexit of the automobile to and out of the construction. A holding unit isprovided at a predetermined height of the entrance/exit section forholding the pallet so as to maintain a horizontal posture of this palletmounting the automobile. The automobile as mounted on the lift table isvertically moved to a predetermined rack and then translated by thetranslator device onto this rack. A turntable device is provided at theentrance/exit section. This device includes a turntable whichswivellably holds the pallet mounting the automobile thereon so that anorientation of the automobile on the pallet is changed by swiveling thisturn table, and includes also an elevator mechanism for elevating theturntable so as to allow an upward movement of the pallet relative tothe height of the entrance/exit section.

U.S. Pat. No. 5,556,246 discloses an automated system for storing,retrieval and transporting of goods of any shape and size in aislelesswarehouses, ships, airplanes, trains and the like. The system alsoprovides aisleless warehouses, parking lots and the like and enables acomputerized fully automated handling of stored items such as loadingand evacuating of containers. The system provides the moving of thegoods by placing same on pallets which travel on a flat and smoothfloor. The pallet is provided with elastic air cushions which enable itshovering over the flat surface and a drive to enable the movement to anyrequired direction.

U.S. Pat. No. 5,573,364 a parking system for a motor vehicle formed as ahigh-level rack storehouse including at least one rack-operating devicefor transporting a car, which is loaded on a pallet at a parkingstation, to one of a parking spot and an unparking station, and anarrangement for handling empty pallets and including a pallet-receivingdevice and a displaceable pallet-stacking device.

U.S. Pat. No. 5,669,753 An automated parking garage simultaneously parksand retrieves multiple vehicles. Each vehicle entering the facility isvideotaped to make a record of its physical condition prior to entryinto the garage to protect the garage owner from baseless damage claims.Vehicles are simultaneously measured and entry into the garage is deniedto oversized vehicles. Upon being granted entry, a customer parks thecustomer's vehicle on a pallet near the garage entrance and leaves thefacility. In single floor designs, the pallet is carried by aself-propelled carrier to a parking space by a series of longitudinaland transverse movements on rails. A multiple story embodiment employs alifting device that includes a pallet support member that shuttles backand forth between two contiguous floors. Each pallet is carried by acarrier to a lifting device and each lifting device has mechanical armsthat support the carrier until the pallet support member deploys andindependently supports the pallet to enable withdrawal of the carrierfrom the lifting device. Another carrier, stationed on an upper floor,retrieves the vehicle-supporting pallet from the lifting device anddelivers it to its assigned parking space. Insertion and retrieval ofmultiple vehicles occurs simultaneously so that the formation of queuesof vehicles entering the facility is minimized.

A main shortcoming of the existing systems for storage of cargo is theircomplexity and flexibility which result in a non-efficient exploitationof existing designated storage space. These systems are usuallypre-fabricated, and therefore their flexibility is limited.

One of the most important directions towards solving the parking spaceproblem is creating less expensive and easily realized various types ofsemi-automatic and automatic parking systems of small and mediumcapacity (e.g., 6-120 places) that could be installed in anypredetermined site and/or location which is characterized by a regularor irregular form. This should be performed easily, without the need forspecial design and manufacturing of such systems.

Therefore, it is long felt need to develop a storage system which is:easy for constructions, cable of providing storage space for anyspecific number of cargo units, reliable, capable of exploiting anydesignated space, capable of providing any 2D and 3D structure, fast andcost-effective. The present invention is intended to comply with allthese requirements.

SUMMARY OF THE INVENTION

It is one object of the present invention to provide a modular systemfor storage of cargo units in a designated space and for effectiveexploitation of the designated space. The system comprises:

-   a. A plurality of pallets. Each pallet of the plurality of pallets    is adapted to carry at least one cargo unit.-   b. A plurality of at least partially interconnected active cell    units forming a multi-dimensional structure with at least one row    and at least one column of storing locations for at least one of the    cargo units; the at least one row of the multi-dimensional structure    is parallel to the to an axis selected from axis X or axis Y, and    the at least one column of the multi-dimensional structure is    parallel to axis selected from axis X and axis Y, differently from    the axis of the at least one row. Each cell unit having a lengthwise    axis X, and a widthwise axis Y, parallel to the axis X and the axis    Y of the multi-dimensional structure. Each cell unit comprises an    cell transporting mechanism adapted to transport at least one pallet    of the plurality of pallets to and from the cell unit in direction    selected from the axis X or the axis Y. Each cell unit further    adapted to contain at least one pallet of the plurality of pallets    on the same.-   c. At least one active shuttle unit moveable between the plurality    of cell units of the multi-dimensional structure and is having a    lengthwise X axis, and a widthwise axis Y, parallel to the axis X    and the axis Y of the multi-dimensional structure. Each shuttle unit    comprises a shuttle transporting mechanism adapted to transport at    least one pallet of the plurality of pallets to and from one of the    plurality of cell units and to and from the at least one shuttle    unit in direction selected from the axis X, and the axis Y. The    shuttle unit is adapted to enable transportation of at least one    pallet of the plurality of pallets from at least one of the cell    units to another one of the cell units. Each shuttle unit further    adapted to contain at least one pallet of the plurality of pallets    on the same.-   d. A central controller adapted to control the operation of the cell    transporting mechanism and the shuttle transporting mechanism of    each one of the cell units and each of the at least one shuttle unit    in an independent manner for transporting the plurality of pallets    from one predetermined location to another predetermined location    within the system.

It is within the scope of the present invention that the operation ofeach of the cell transporting mechanism of each of the plurality of cellunits and each of the shuttle transporting mechanism of each of the atleast one shuttle unit is independently performed in the independentmanner via the central controller such that a construction of anyarrangement of the cell units forming the multi-dimensional structure isperformed to effectively exploit the designated space by means of thenumber of cargo units capable of being inserted and stored within thesystem.

It is another object of the present invention to provide the modularsystem as defined above, wherein the shuttle unit comprising a liftingmechanism adapted to lift the at least one pallet of the plurality ofpallets in the direction of axis Z of the multi-dimensional structurewhen the multi-dimensional structure of the cell units comprises morethat more than one layer of cell units;

It is another object of the present invention to provide the modularsystem as defined above, wherein the central controller is adapted toinsert and extract at least one of the cargo units to and from aspecific cell unit within the system by an arrangement and movement ofthe plurality of pallets selected from a group consisting of: cyclicmovement, linear movement, or any combination thereof; the arrangementand movement of the plurality of pallets is in a direction selected froma group consisting of: the axis X, axis Y, axis Z, or any combinationthereof.

It is another object of the present invention to provide the modularsystem as defined above, wherein the system is a parking system, thecargo units are vehicles, and each cell unit of the plurality of cellunits is adapted to contain one vehicle of the vehicles.

It is another object of the present invention to provide the modularsystem as defined above, wherein the dimensions of the multi-dimensionalstructure are selected from a group consisting of: 2D, 3D, or anycombination thereof.

It is another object of the present invention to provide the modularsystem as defined above, wherein the system further comprises at leasttwo substantially parallel rails on which the at least one shuttle unitis moveable between the plurality of cell units.

It is another object of the present invention to provide the modularsystem as defined above, wherein the central controller comprises a setof predetermined algorithms for any possible structure of themulti-dimensional structures; the algorithms are responsible fortransporting the plurality of pallets from one predetermined location toanother predetermined location along a shortest possible route withinthe multi-dimensional structure.

It is another object of the present invention to provide the modularsystem as defined above, wherein the predetermined location is selectedfrom one cell unit of the plurality of cell units or one shuttle unit ofthe at least one shuttle unit.

It is another object of the present invention to provide the modularsystem as defined above, wherein the system further comprises at leastone entry and at least one exit points; the at least one entry and atleast one exit points are selected from one cell unit of the pluralityof cell units or one shuttle unit of the at least one shuttle unit.

It is another object of the present invention to provide the modularsystem as defined above, wherein the cell transporting mechanism and theshuttle transporting mechanism are adapted to transport at least onepallet of the plurality of pallets from one cell unit to its adjacentcell unit in a time interval of between about 7 to about 13 seconds.

It is another object of the present invention to provide the modularsystem as defined above, wherein the cell transporting mechanism and theshuttle transporting mechanism are adapted to transport at least onepallet of the plurality of pallets from one cell unit to its adjacentcell unit in a time interval of about 10 second.

It is another object of the present invention to provide the modularsystem as defined above, wherein the one cell unit of the plurality ofcell units comprises a rotating mechanism adapted to rotate a palletlocated on it in a rotation angle between about 1° to about 360°,clockwise and counter-clockwise.

It is another object of the present invention to provide the modularsystem as defined above, wherein the at least one shuttle unit comprisesa rotating mechanism adapted to rotate a pallet located on it in arotation angle between about 1° to about 360°, clockwise andcounter-clockwise.

It is another object of the present invention to provide the modularsystem as defined above, wherein the plurality of cell units are atleast partially interconnected by mechanically connected means selectedfrom a group consisting of: shafts, rods, axles, bars, balks, staffs,levers, pales, or any combination thereof.

It is another object of the present invention to provide the modularsystem as defined above, wherein the system is characterized by acharacteristic selected from a group consisting of kit-like, LEGO-like,easy for construction, easy for assembly, easy for disassembly, or anycombination thereof.

It is another object of the present invention to provide the modularsystem as defined above, wherein the cell transporting mechanism and theshuttle transporting mechanism comprise rotating wheels adapted to movethe at least one pallet by their rotation, such that the at least onepallet of the plurality of pallets is transported to and from one of theplurality of cell units and to and from the at least one shuttle unit.

It is another object of the present invention to provide the modularsystem as defined above, wherein the operation of the rotating wheels iscontrolled by the central controller, such that the direction of therotation of the rotating wheels and the rotation time interval are set.

It is another object of the present invention to provide the method forconstructing and operating a modular system for storage of cargo unitsin a designated space and for effective exploitation of the designatedspace. The method comprising steps of:

-   a. Providing a modular system for storage of cargo units in a    designated space and for effective exploitation of the designated    space, the system comprising: (i) a plurality of pallets, each    pallet of the plurality of pallets is adapted to carry at least one    cargo unit; (ii) a plurality of active cell units adapted to form a    multi-dimensional structure with at least one row and at least one    column of storing locations for at least one of the cargo units; the    at least one row of the multi-dimensional structure is parallel to    the to an axis selected from axis X or axis Y, and the at least one    column of the multi-dimensional structure is parallel to axis    selected from axis X and axis Y, differently from the axis of the at    least one row; each cell unit having a lengthwise axis X, and a    widthwise axis Y, parallel to the axis X and the axis Y of the    multi-dimensional structure; each cell unit comprising an cell    transporting mechanism adapted to transport at least one pallet of    the plurality of pallets to and from the cell unit in direction    selected from the axis X or the axis Y; each cell unit further    adapted to contain at least one pallet of the plurality of pallets    on the same; (iii) at least one active shuttle unit moveable between    the plurality of cell units of the multi-dimensional structure and    is having a lengthwise X axis, and a widthwise axis Y, parallel to    the axis X and the axis Y of the multi-dimensional structure; each    shuttle unit comprising a shuttle transporting mechanism adapted to    transport at least one pallet of the plurality of pallets to and    from one of the plurality of cell units and to and from the at least    one shuttle unit in direction selected from the axis X, and the axis    Y; the shuttle unit is adapted to enable transportation of at least    one pallet of the plurality of pallets from at least one of the cell    units to another one of the cell units; each shuttle unit further    adapted to contain at least one pallet of the plurality of pallets    on the same; and, (iv) a central controller adapted to control the    operation of the cell transporting mechanism and the shuttle    transporting mechanism of each one of the cell units and each of the    at least one shuttle unit in an independent manner for transporting    the plurality of pallets from one predetermined location to another    predetermined location within the system;-   b. At least partially interconnecting the active cell units, and    thereby forming the multi-dimensional structure.-   c. Installing the at least one active shuttle unit between the    plurality of cell units of the multi-dimensional structure.-   d. Providing at least one cargo unit.-   e. Placing the at least one cargo unit one pallet of the plurality    of pallets at one predetermined location within the system.-   f. Controlling the operation of the cell transporting mechanism and    the shuttle transporting mechanism of each one of the cell units and    each of the at least one shuttle unit via the central controller in    an independent manner.-   g. Transporting the at least one pallet of the plurality of pallets    to and from at least one of the plurality of cell units and the at    least one active shuttle unit via the cell transporting mechanism    and the shuttle transporting mechanism of the same.-   h. Transporting the at least one cargo unit from the one    predetermined location to another predetermined location within the    system.-   i. Storing the at least one cargo unit within the system.

It is within the scope of the present invention that step (f) ofcontrolling the operation of the cell transporting mechanism and theshuttle transporting mechanism of each one of the cell units and each ofthe at least one shuttle unit is performed in the independent manner viathe central controller, and thereby the system is efficiently exploitingthe designated space by means of the number of cargo units capable ofbeing inserted and stored within the system by allowing a constructionof any arrangement of the cell units forming the multi-dimensionalstructure.

It is another object of the present invention to provide the method asdefined above, which further comprises step of lifting the at least onepallet of the plurality of pallets via a lifting mechanism in thedirection of axis Z of the multi-dimensional structure when themulti-dimensional structure of the cell units comprising more that morethan one layer of cell units.

It is another object of the present invention to provide the method asdefined above, which further comprises steps of inserting and extractingat least one of the cargo units to and from a specific cell unit withinthe system via the central controller by arranging and moving theplurality of pallets by an arrangement and movement selected from agroup consisting of: cyclic movement, linear movement, or anycombination thereof; the arrangement and movement of the plurality ofpallets is in a direction selected from a group consisting of: the axisX, axis Y, axis Z, or any combination thereof.

It is another object of the present invention to provide the method asdefined above, wherein the system is a parking system, the cargo unitsare vehicles, and each cell unit of the plurality of cell units isadapted to contain one vehicle of the vehicles.

It is another object of the present invention to provide the method asdefined above, wherein the dimensions of the multi-dimensional structureare selected from a group consisting of: 2D, 3D, or any combinationthereof.

It is another object of the present invention to provide the method asdefined above, wherein the system further comprises at least twosubstantially parallel rails on which the at least one shuttle unit ismoveable between the plurality of cell units.

It is another object of the present invention to provide the method asdefined above, which further comprises step of providing the centralcontroller with a set of predetermined algorithms for any possiblestructure of the multi-dimensional structures; the algorithms areresponsible for transporting the plurality of pallets from onepredetermined location to another predetermined location along ashortest possible route within the multi-dimensional structure.

It is another object of the present invention to provide the method asdefined above, which further comprises step of selecting thepredetermined location from one cell unit of the plurality of cell unitsor one shuttle unit of the at least one shuttle unit.

It is another object of the present invention to provide the method asdefined above, which further comprises step of providing the system withat least one entry and at least one exit points; the at least one entryand at least one exit points are selected from one cell unit of theplurality of cell units or one shuttle unit of the at least one shuttleunit.

It is another object of the present invention to provide the method asdefined above, wherein the cell transporting mechanism and the shuttletransporting mechanism are adapted to transport at least one pallet ofthe plurality of pallets in a time interval of between about 7 to about13 seconds.

It is another object of the present invention to provide the method asdefined above, wherein the cell transporting mechanism and the shuttletransporting mechanism are adapted to transport at least one pallet ofthe plurality of pallets in a time interval of about 10 second.

The method for constructing and operating a modular system for storageof cargo units of claim 18, wherein the one cell unit of the pluralityof cell units comprises a rotating mechanism adapted to rotate a palletlocated on it in a rotation angle between about 1° to about 360°,clockwise and counter-clockwise.

It is another object of the present invention to provide the method asdefined above, wherein the plurality of cell units are at leastpartially interconnected by mechanically connected means selected from agroup consisting of: shafts, rods, axles, bars, balks, staffs, levers,pales, or any combination thereof.

It is another object of the present invention to provide the method asdefined above, wherein the system is characterized by a characteristicselected from a group consisting of: kit-like, LEGO-like, easy forconstruction, easy for assembly, easy for disassembly, or anycombination thereof.

It is another object of the present invention to provide the method asdefined above, wherein the cell transporting mechanism and the shuttletransporting mechanism comprise rotating wheels adapted to move the atleast one pallet by their rotation, such that the at least one pallet ofthe plurality of pallets is transported to and from one of the pluralityof cell units and to and from the at least one shuttle unit.

It is another object of the present invention to provide the method asdefined above, wherein the operation of the rotating wheels iscontrolled by the central controller, such that the direction of therotation of the rotating wheels and the rotation time interval are set

BRIEF DESCRIPTION OF THE FIGURES

For a better understanding of the invention and to show how the same maybe carried into effect, reference will now be made, purely by way ofexample, to the accompanying drawings in which like numerals designatecorresponding elements or sections throughout.

With specific reference now to the drawings in detail, it is stressedthat the particulars shown are by way of example and for purposes ofillustrative discussion of the preferred embodiments of the presentinvention only, and are presented in the cause of providing what isbelieved to be the most useful and readily understood description of theprinciples and conceptual aspects of the invention. In this regard, noattempt is made to show structural details of the invention in moredetail than is necessary for a fundamental understanding of theinvention, the description taken with the drawings making apparent tothose skilled in the art how the several forms of the invention may beembodied in practice. In the accompanying drawings:

FIGS. 1 a-b are a schematic illustration of a specific embodiment of anactive cell units of the modular system of the present invention.

FIGS. 2 a-b are a schematic illustration of an upper view of twointerconnected cell units.

FIG. 3 is a schematic illustration of an example of the modular systemof the present invention.

FIG. 4 is a schematic illustration of a specific embodiment of theshuttle unit of present invention.

FIGS. 5 a-b are a schematic illustration of a specific embodiment of acell unit with a rotating mechanism.

FIG. 6 is schematically illustrates a 3D multi-dimensional structureillustrated a specific embodiment of active cell units of the modularsystem of the present invention.

FIG. 7 is a schematic illustration of the modular system of the presentinvention with one hundred cell units.

FIG. 8 a-b are schematic illustration of the modular system of thepresent invention with one different numbers of cell units.

FIG. 9 is a schematic illustration of the modular system of the presentinvention with forty five cell units.

FIGS. 10 a-b is a schematic illustration of the modular system of thepresent invention.

FIGS. 11 a-c illustrate different embodiments of the present inventionin which the cell units and the shuttle units are adapted to transportthe pallets in the direction of axis Y.

FIGS. 12 a-b illustrate different embodiments of the present inventionin which the cell units and the shuttle units are adapted to transportthe pallets in the direction of axis Y.

FIGS. 13 a-b illustrate different embodiments of the present inventionin which the cell units and the shuttle units are adapted to transportthe pallets in the direction of axis X.

FIG. 14 a illustrates a specific embodiment of the present invention inwhich the cell units and the shuttle units are adapted to transport thepallets in the direction of axis X

FIG. 14 b exemplary illustrates a picture of the system of the presentinvention.

The drawings together with the description make apparent to thoseskilled in the art how the invention may be embodied in practice.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Before explaining at least one embodiment of the invention in detail, itis to be understood that the invention is not limited in its applicationto the details of construction and the arrangement of the components setforth in the following description or illustrated in the drawings. Theinvention is applicable to other embodiments or of being practiced orcarried out in various ways. Also, it is to be understood that thephraseology and terminology employed herein is for the purpose ofdescription and should not be regarded as limiting.

The present invention discloses a modular system for storage of cargounits in a designated space and for effective exploitation of thedesignated space. The system comprises:

-   a. A plurality of pallets. Each pallet of the plurality of pallets    is adapted to carry at least one cargo unit.-   b. A plurality of at least partially interconnected active cell    units forming a multi-dimensional structure with at least one row    and at least one column of storing locations for at least one of the    cargo units; the at least one row of the multi-dimensional structure    is parallel to the to an axis selected from axis X or axis Y, and    the at least one column of the multi-dimensional structure is    parallel to axis selected from axis X and axis Y, differently from    the axis of the at least one row. Each cell unit having a lengthwise    axis X, and a widthwise axis Y, parallel to the axis X and the axis    Y of the multi-dimensional structure. Each cell unit comprises an    cell transporting mechanism adapted to transport at least one pallet    of the plurality of pallets to and from the cell unit in direction    selected from the axis X or the axis Y. Each cell unit further    adapted to contain at least one pallet of the plurality of pallets    on the same.-   c. At least one active shuttle unit moveable between the plurality    of cell units of the multi-dimensional structure and is having a    lengthwise X axis, and a widthwise axis Y, parallel to the axis X    and the axis Y of the multi-dimensional structure. Each shuttle unit    comprises a shuttle transporting mechanism adapted to transport at    least one pallet of the plurality of pallets to and from one of the    plurality of cell units and to and from the at least one shuttle    unit in direction selected from the axis X, and the axis Y. The    shuttle unit is adapted to enable transportation of at least one    pallet of the plurality of pallets from at least one of the cell    units to another one of the cell units. Each shuttle unit further    adapted to contain at least one pallet of the plurality of pallets    on the same.-   d. A central controller adapted to control the operation of the cell    transporting mechanism and the shuttle transporting mechanism of    each one of the cell units and each of the at least one shuttle unit    in an independent manner for transporting the plurality of pallets    from one predetermined location to another predetermined location    within the system.

The operation of each of the cell transporting mechanism of each of theplurality of cell units and each of the shuttle transporting mechanismof each of the at least one shuttle unit is independently performed inthe independent manner via the central controller such that aconstruction of any arrangement of the cell units forming themulti-dimensional structure is performed to effectively exploit thedesignated space by means of the number of cargo units capable of beinginserted and stored within the system.

The term ‘designated space’ refers hereinafter to any above ground orunderground location and/or structure in which a parking system might beinstalled (e.g., a parking lot, a carriage of an existing building, ayard, etc.).

The term ‘cell units’ refers hereinafter to a unit which is adapted tocomprise a cargo unit by means of size and shape (see for example FIG. 1a, numerical reference 10).

The term ‘pallets’ refers hereinafter to a planar object onto which acargo unit is placed (see for example FIG. 1 b, numerical reference 20).

The term ‘shuttle unit’ refers hereinafter to a cell unit which istransportable (see for example FIG. 6, numerical reference 71).

The term ‘cargo units’ refers hereinafter to any units which aredimensionally fitter to the system. For example: vehicles, products,boxes, production components, etc.

The term ‘lifting mechanism’ refers hereinafter to any elevatingmechanism known in the art.

The term ‘active cell units’ refers hereinafter to a cell in which thetransporting mechanism is embedded within said cell.

The term ‘passive cell units’ refers hereinafter to a cell in which thetransporting of a cargo is performed via an independent transportingmechanism.

The present invention which is disclosed below is a novel andnon-obvious set of standardized aggregates and blocks for theconstruction of semi-automatic and automatic storage systems (e.g.,parking complexes) of various size, form, and designation. The system ofthe present invention is adapted to accommodate itself to the shape,dimensions, and topography of any available plot of land, andeffectively exploits any designated space by means of number of cargounits which can be stored within the system. Moreover, the system isdesigned in such a way that allows it to increase the speed and spaceutilization ratio, when compared with other existing systems. Forexample, the system is able to retrieve at least 40 vehicles per hourstored within it.

The present invention is a kit of standardized and mechanically mutuallyconnectable elements and components which are designed and manufacturedin such a way that there is full compatibility of the components withone another. This compatibility is by means of ease of assembly, size,power requirements, management, control, etc.

The system of the present invention is an easy for construction modularsystem which is: kit-like, LEGO-like, easy for construction, easy forassembly, easy for disassembly, or any combination thereof. Thesecharacteristics of the present invention are achieved by an active andan independent manner according to which each main part of the system(e.g., a cell unit or a shuttle unit) is actuated.

The core of the present invention is the ability to use basic componentssuch as: cell units, shuttle units and pallets in order to design, forexample, small parking complexes of 4-20 places, medium parkingcomplexes of 21-60 places, as well as large parking complexes ofhundreds and thousands of places.

The existing parking systems, part of which is disclosed about sufferfrom a critical limitation of flexibility in their structure andadaptability to various locations and existing structures. To overcomethese limitations, the present invention provides the ability exploitany existing designated space in order to construct a storage systemwithin it.

Reference is now made to FIGS. 1 a-b, which schematically illustrate aspecific embodiment of an active cell units 10 of a modular system 100(not shown) for storage of cargo units in a designated space 90 (shownin FIG. 6) and for effective exploitation of designated space 90. Theactive cell units 10 which are connectable to other cell units are themain element of modular system 100. Each cell unit 10 is has alengthwise axis X, and a widthwise axis Y. For example, as illustratedin FIG. 1 a, two cell units 10 are mechanically connected to each other.Each cell unit 10 comprising legs 15 which are adapted to support thecell unit.

According to the preferred embodiment of the present invention, modularsystem 100 is a parking system, and the cargo units are vehicles.According to this embodiment, each cell unit 10 of the plurality of cellunits is adapted to contain one vehicle in the same.

An additional element of system 100 (not shown) is a plurality ofpallets. Each pallet 20 of the plurality of pallets is adapted to carryat least one cargo unit. According to the embodiment of FIG. 1 b, acargo unit is a vehicle 5 carried by pallet 20.

According to some embodiments of the present invention, a pallet is aspecial platform designed to store a vehicle. The vehicle is staying onthe pallet until a request by owner or any other authorized person isperformed. The pallet is configured to be moved into modular system withor without a vehicle on it. A vehicle is movable within the system onlywhen it is placed on a pallet.

Each cell unit comprising a cell transporting mechanism 25 adapted tocontain, carry and transport at least one pallet 20 of the plurality ofpallets to and from cell unit 10 in direction selected from axis X oraxis Y. As illustrated in FIG. 1 b, cell transporting mechanism 25transports pallet 20 in the direction of axis X.

According to the specific embodiment of the present inventionillustrated in FIGS. 1 a-b, cell transporting mechanism 25 comprisesrotating wheels adapted to move said at least one pallet by theirrotation, such that pallet 20 is transported to and from one of saidplurality of cell units and to and from said at least one shuttle unit.

Reference is now made to FIG. 2 a, which schematically illustrates anupper view of two interconnected cell units 10. According to thisfigure, cell transporting mechanism 25 transports pallet 20 in thedirection of axis X. This transport may be in a forward or in a backwarddirection.

According to different embodiments of the present invention, the cellunits are interconnected by mechanically connected means selected from agroup consisting of: shafts, rods, axles, bars, balks, staffs, levers,pales, or any combination thereof.

Reference is now made to FIG. 2 b, which schematically illustrates anupper view of two interconnected cell units 12. According to thisfigure, cell transporting mechanism 27 transports pallet 20 (not shown)in the direction of axis Y. This transport may be in a right or a leftdirection.

Reference is now made to FIG. 3, which schematically illustrates anexample of the modular system 100 of the present invention. In thisfigure illustrated a plurality of at least partially interconnectedactive cell units 10 forming a multi-dimensional structure 95 with fiverows and two columns of storing locations for at least one of the cargounits. The rows of multi-dimensional structure 95 are parallel to saidto axis Y, and the columns of multi-dimensional structure 95 areparallel to axis X. Each one of cell units 10 is having a lengthwiseaxis X, and a widthwise axis Y, parallel to axis X and axis Y ofmulti-dimensional structure 95. According to this embodiment, each cellunit 10 is adapted to transport at least one pallet of the plurality ofpallets to and from cell unit 10 in direction of axis X. The dimensionsof multi-dimensional structure 95 are selected from a group consistingof: 2D, 3D, or any combination thereof.

According to different embodiments of the preset invention,multi-dimensional structure 95 might be: a tower structure, a carouselstructure, one level parking system, one level puzzle parking system,multi-level shuttle parking system, multi-level puzzle parking system,multi-level big (shuttle or puzzle) parking system,

According to FIG. 3, modular system 100 further comprises shuttle unit30 which is moveable between the rows of cell units 10, and is adaptedto contain, carry and transport. Each shuttle unit 30 is having alengthwise X axis, and a widthwise axis Y, parallel to axis X and axis Yof multi-dimensional structure 95. Each Shuttle unit comprises a shuttletransporting mechanism (not shown) which is according to a specificembodiment of the present invention is similar to the cell transportingmechanism. The shuttle transporting mechanism is adapted to transport atleast one pallet of the plurality of pallets to and from one of theplurality of cell units and to and from shuttle unit in directionselected from axis X, and axis Y. Shuttle unit 30 is adapted to enabletransportation of at least one pallet of the plurality of pallets fromat least one of said cell units to another one of said cell units. Forexample, shuttle unit 30 is adapted to transport at least one pallet ofthe plurality of pallets from cell unit 17 to cell unit 18.

According to a specific embodiment of the present invention, system 100further comprises two substantially parallel rails 80 on which saidshuttle unit is moveable between the cell units 10.

According to a specific embodiment, the shuttle transporting mechanismcomprises rotating wheels adapted to move said at least one pallet bytheir rotation, such that pallet 20 is transported to and from one ofsaid plurality of cell units and to and from said at least one shuttleunit.

The operation of modular system 100 is controlled by a centralcontroller (not shown) which is adapted to control the operation of celltransporting mechanism 25 and shuttle transporting mechanism (not shown)of each one of cell units 10 and each shuttle unit 30 for transportingthe plurality of pallets from one predetermined location to anotherpredetermined location within the system. According to differentembodiments of the present invention, the predetermined location mightbe a specific cell unit or a shuttle unit.

An important advantage of the system of the present invention is theability of the central controller to control the operation of celltransporting mechanism 25 and shuttle transporting mechanism in anindependent manner. In other words, and according to a specificembodiment, the central controller is adapted to give each celltransporting mechanism and each shuttle transporting mechanism an orderto rotate the rotating wheel for a predetermined period of time, suchthat the pallet is moved to or from the cell unit or the shuttle unit.The independent manner in which the cell transporting mechanism 25 andshuttle transporting mechanism are controlled, allow a construction ofany arrangement of cell units 10 to form multi-dimensional structure 95.The result of this ability provides a modular system which is able toeffectively exploit the designated space by means of the number of cargounits capable of being inserted and stored within the system.

Each cell unit or shuttle unit of the present invention is able toconnect to any other cell unit or shuttle unit of the system, and foreach one of them it does not matter to when the pallets are delivered.What is important for each cell unit or shuttle unit is that the panelsare moved to an adjacent cell unit or shuttle unit if they exist. Ifthere is no adjacent cell unit or shuttle unit, the pallets will not betransported from the cell unit or the shuttle unit.

The operation of rotating wheels is controlled by the centralcontroller, such that the direction of the rotation of the rotatingwheels and the rotation time interval are set. According to thepreferred embodiment of the present invention, the rotation timeinterval of at least most of the cell units and the shuttle units issubstantially the same (due to their similar length).

According to different embodiments, the cell transporting mechanism andthe shuttle transporting mechanism comprise a motor adapted to actuatethe mechanism by rotating a chain which is connected to the rotatingwheels.

According to some embodiments, the cell transporting mechanism and theshuttle transporting mechanism are adapted to transport at least onepallet from one cell unit to its adjacent cell unit in a time intervalof between about 7 to about 13 seconds. According to a specificembodiment, this time interval is about 10 second. Due to the activetransporting mechanism of each one of the cell units and the shuttleunits, this time interval is much shorter that a time interval whichcould be achieved by a passive transporting mechanism (which takes eachpallet and transports it by moving means such as a crane, or atransporting arm).

The central controller of modular system 100 is adapted to insert andextract at least one of said cargo units to and from a specific cellunit within said system by an arrangement and movement of said pluralityof pallets selected from a group consisting of: cyclic movement, linearmovement, or any combination thereof. The arrangement and the movementof the plurality of pallets is performed in a direction selected from agroup consisting of: axis X, axis Y, axis Z, or any combination thereof.For example, shuttle unit 30 of FIG. 3 is adapted to move in a linearmovement in the direction of axis Y.

The central controller of the present invention comprises a set ofpredetermined algorithms for any possible structure of multi-dimensionalstructure 95. The algorithms are responsible for transporting theplurality of pallets from one predetermined location to anotherpredetermined location along a shortest possible route withinmulti-dimensional structure 95. This shortest possible route might bethe minimal number of transports of the pallets located within thesystem in order to bring a specific pallet with a specific vehicle on itto a specific location.

According to some embodiments, modular system 100 might further comprisean entry point and an exit point. The entry and the exit points areselected from a cell unit 10 or a shuttle unit 30.

Reference is now made to FIG. 4 of the present invention whichschematically illustrates a specific embodiment of the shuttle unit ofpresent invention. According to this embodiment, shuttle unit 31comprises a lifting mechanism 70 adapted to lift at least one pallet inthe direction of axis Z when multi-dimensional structure 95 of said cellunits 10 comprises more than one layer of cell units. The liftingmechanism 70 might by any lifting or elevating mechanism known in theart. The lifting mechanism is preprogrammed to lift a pallet which islocated on it (not shown) to a predetermined height, or bring the palletdown to a predetermined height.

It should be mentioned, that according to different embodiment of thepresent invention, when a cell unit and a shuttle unit are joint (oneadjacent to the other), the shuttle unit might be used as a cell unit.Following their separation, the shuttle unit is used again a shuttle andnot as a cell.

Reference is now made to FIG. 5 a-b which schematically illustrates aspecific embodiment of a cell unit with a rotating mechanism 65. Therotating mechanism is adapted to rotate a pallet located on it in arotation angle between about 1° to about 360°, clockwise andcounter-clockwise. According to other embodiment, a shuttle unit mightbe provided with a rotating mechanism adapted to rotate a pallet locatedon it in a rotation angle between about 1° to about 360°, clockwise andcounter-clockwise. As presented in FIG. 5 a, a cell unit with a rotatingmechanism or a shuttle unit with a rotating mechanism can bemechanically interconnected to another cell unit or shuttle unit, suchthat a pallet is transported to and from the cell unit with the rotatingmechanism or the shuttle unit with the rotating mechanism.

Reference is now made to FIGS. 6-10, in which the cell units and theshuttle units are adapted to transport the pallets in the direction ofaxis X.

In FIG. 6, which schematically illustrates a 3D multi-dimensionalstructure 96 illustrated a specific embodiment of active cell units 10of a modular system 110 for storage of cargo units in a designated space90 and for effective exploitation of designated space 90. Themulti-dimensional structure 96 comprises 50 cell units and one shuttleunit with lifting mechanism.

According to FIG. 6, multi-dimensional structure 96 comprises five rowsand two columns of storing locations for at least one of the cargounits. The rows of multi-dimensional structure 95 are parallel to saidto axis Y, and the columns of multi-dimensional structure 96 areparallel to axis X. Each one of cell units 10 is having a lengthwiseaxis X, and a widthwise axis Y, parallel to axis X and axis Y ofmulti-dimensional structure 95. According to this embodiment, each cellunit 10 and the shuttle unit are adapted to transport at least onepallet of the plurality of pallets to and from cell unit 10 in directionof axis X. Moreover, multi-dimensional structure 96 comprises fivelayers in the direction of axis Z, so that shuttle unit 71 is moveablenot only in the direction of axis Y, but also in the direction of axisZ. According to this figure, vehicle 5 which is placed on pallet 20 istransportable to each one of the cell units 10 within multi-dimensionalstructure 96.

Reference is now made to FIG. 7, which schematically illustrates themodular system of the present invention with one hundred cell units.According to this specific embodiment, the multi-dimensional structureis a 3D structure of cell units, fifty cell units in each side of thestructure, with a shuttle unit with lifting mechanism therebetween.According to this embodiment, the insertion and the extraction ofpallets with vehicles on them is performed by a linear movement andarrangement of the vehicles.

Reference is now made to FIG. 8 a, which schematically illustrates themodular system of the present invention with twenty five cell units.According to this specific embodiment, there is one row of cell units inthe direction of axis Y, there are five columns of cell units in thedirection of axis X, and there are five layers of cell units in thedirection of axis Z. According to this specific embodiment, there aretwo shuttle units 72 which are moveable between the cell units. Thearrangement and movement of the pallets is performed via a combinationof linear and circular movements of the pallets as illustrated in arrows87. This arrangement and movement can also be called as “horizontalcarousel”. The system illustrated in this figure also comprises box 67to which a vehicle can enter, and which can protect a vehicle.

According to the specific embodiment illustrated in this figure, box 67is a part of the system which is adapted to receive a vehicle forstorage or for delivering the vehicle to user. When a box is part of thesystem, the pallet is arriving even into a cell unit (or a shuttle unit)within box 67, and the driver can park the vehicle within the box on thepallet. After this the driver can leave the vehicle, and the system willtransport the vehicle to a predetermined cell unit.

Reference is now made to FIG. 8 b, which schematically illustrates themodular system of the present invention with ten cell units. Accordingto this specific embodiment, there is one row of cell units in thedirection of axis Y, there are two separated columns of cell units inthe direction of axis X, and there are five layers of cell units in thedirection of axis Z. According to this specific embodiment, there is oneshuttle unit 72 with lifting mechanism which is moveable between thelayers of the multidimensional structure.

Reference is now made to FIG. 8 b, which schematically illustrates themodular system of the present invention with ten cell units. Accordingto this specific embodiment, there is one row of cell units in thedirection of axis Y, there are two separated columns of cell units inthe direction of axis X, and there are five layers of cell units in thedirection of axis Z. According to this specific embodiment, there is oneshuttle unit 72 with lifting mechanism which is moveable between thelayers of the multidimensional structure.

Reference is now made to FIG. 9, which schematically illustrates themodular system of the present invention with forty five cell units.According to this specific embodiment, there are three rows of cellunits in the direction of axis Y, there are three columns of cell unitsin the direction of axis X, and there are five layers of cell units inthe direction of axis Z. According to this specific embodiment, thereare the shuttle unit with lifting mechanism which is moveable betweenthe layers and the rows of the multidimensional structure and there aretwo entry and exit points 56.

Reference is now made to FIG. 10 a, which schematically illustrates themodular system of the present invention. According to this figure, themulti-dimensional structure is a 2D structure with different number ofinterconnected cell units. According to this figure, a vertical (in theX-Y plane) arrangement and movement of vehicles might be performed bytwo shuttle units as illustrated by arrows 89.

In FIGS. 10-12, illustrated different embodiments of the presentinvention in which the cell units and the shuttle units are adapted totransport the pallets in the direction of axis Y. In this figurespresented 2D and 3D multi-dimensional structures in various embodimentswhich can be easily understood by a person skilled in the art.

For example, in FIG. 10 b, illustrated a 2D multi-dimensional structureof cell units in which there are thirty five cell units for storage ofvehicles. The system also comprises two entry/exit cell units withrotating mechanism 88. The embodiment of the present invention alsocomprises two shuttle units which are moveable between the rows of themulti-dimensional structure.

For another example, in FIGS. 11 a-b, illustrated a 3D multi-dimensionalstructure of cell units in which there are fifty cell units for storageof vehicles with shuttle unit with lifting mechanism. FIG. 11 b is anupper view on the system from plane X-Y, and FIG. 11 a is a side view onthe system from plane Z.

In FIGS. 13-14 a, illustrated different embodiments of the presentinvention in which the cell units and the shuttle units are adapted totransport the pallets in the direction of axis X. In this figurespresented 2D and 3D multi-dimensional structures in various embodimentswhich can be easily understood by a person skilled in the art.

Reference is now made to FIG. 14 b which exemplary illustrates a pictureof the system of the present invention. According to this picture,shuttle 30 is moveable on rails 80 with pallet 20 which has a vehicle 5on it.

According to some, embodiments, the system might comprise billing unitsadapted to manage the billing for the use of the storage locations.

What is claimed is:
 1. A modular system for storage of cargo units in adesignated space and for effective exploitation of said designatedspace, said system comprising: a. a plurality of pallets, each isadapted to carry at least one cargo unit; b. a plurality of at leastpartially interconnected active cell units forming a multi-dimensionalstructure with at least one row and at least one column of storinglocations for at least one of said cargo units; said at least one row ofsaid multi-dimensional structure is parallel to said to an axis selectedfrom axis X or axis Y, and said at least one column of saidmulti-dimensional structure is parallel to axis selected from axis X andaxis Y, differently from the axis of said at least one row; each cellunit having a lengthwise axis X, and a widthwise axis Y, parallel tosaid axis X and said axis Y of said multi-dimensional structure; eachcell unit comprising a cell transporting mechanism adapted to transportat least one pallet to and from said cell unit in direction selectedfrom said axis X or said axis Y; each cell unit further adapted tocontain at least one pallet on the same; c. at least one active shuttleunit moveable between said plurality of cell units of saidmulti-dimensional structure; said active shuttle unit has a lengthwise Xaxis, and a widthwise axis Y, parallel to said axis X and said axis Y ofsaid multi-dimensional structure; each shuttle unit comprising a shuttletransporting mechanism adapted to transport at least one pallet of saidplurality of pallets to and from one of said plurality of cell units indirection selected from said axis X, and said axis Y; said shuttle unitis adapted to enable transportation of at least one pallet of saidplurality of pallets from at least one of said cell units to another oneof said cell units; each shuttle unit further adapted to contain atleast one pallet of said plurality of pallets on the same; and, d. acentral controller adapted to control the operation of said celltransporting mechanism and said shuttle transporting mechanism of eachone of said cell units and each of said at least one shuttle unit in anindependent manner for transporting said plurality of pallets from onepredetermined location to another predetermined location within saidsystem; wherein the operation of each of said cell transportingmechanism of each of said plurality of cell units and each of saidshuttle transporting mechanism of each of said at least one shuttle unitis independently performed in said independent manner via said centralcontroller such that a construction of any arrangement of said cellunits forming said multi-dimensional structure is performed toeffectively exploit said designated space by means of the number ofcargo units capable of being inserted and stored within said system;wherein said one cell unit of said plurality of cell units comprises arotating mechanism adapted to rotate a pallet located on it in arotation angle between about 1° to about 360°, clockwise andcounter-clockwise.
 2. The modular system of claim 1, wherein saidshuttle unit comprising a lifting mechanism adapted to lift said atleast one pallet of said plurality of pallets in the direction of axis Zof said multi-dimensional structure when said multi-dimensionalstructure of said cell units comprises more that more than one layer ofcell units.
 3. The modular system of claim 1, wherein said centralcontroller is adapted to insert and extract at least one of said cargounits to and from a specific cell unit within said system by anarrangement and movement of said plurality of pallets selected from agroup consisting of: cyclic movement, linear movement, or anycombination thereof; said arrangement and movement of said plurality ofpallets is in a direction selected from a group consisting of: said axisX, axis Y, axis Z, or any combination thereof.
 4. The modular system ofclaim 1, wherein said system is a parking system, said cargo units arevehicles, and each cell unit of said plurality of cell units is adaptedto contain one vehicle of said vehicles.
 5. The modular system of claim1, wherein the dimensions of said multi-dimensional structure areselected from a group consisting of: 2D, 3D, or any combination thereof.6. The modular system of claim 1, wherein said system further comprisesat least two substantially parallel rails on which said at least oneshuttle unit is moveable between said plurality of cell units.
 7. Themodular system of claim 1, wherein said central controller comprises aset of predetermined algorithms for any possible structure of saidmulti-dimensional structures; said algorithms are responsible fortransporting said plurality of pallets from one predetermined locationto another predetermined location along a shortest possible route withinsaid multi-dimensional structure.
 8. The modular system of claim 7,wherein said predetermined location is selected from one cell unit ofsaid plurality of cell units or one shuttle unit of said at least oneshuttle unit.
 9. The modular system of claim 1, wherein said systemfurther comprises at least one entry and at least one exit points; saidat least one entry and at least one exit points are selected from onecell unit of said plurality of cell units or one shuttle unit of said atleast one shuttle unit.
 10. The modular system of claim 1, wherein saidat least one shuttle unit comprises a rotating mechanism adapted torotate a pallet located on it in a rotation angle between about 1° toabout 360°, clockwise and counter-clockwise.
 11. The modular system ofclaim 1, wherein said plurality of cell units are at least partiallyinterconnected by mechanically connected means selected from a groupconsisting of: shafts, rods, axles, bars, balks, staffs, levers, pales,or any combination thereof.
 12. The modular system of claim 1, whereinsaid system is characterized by a characteristic selected from a groupconsisting of: kit-like, LEGO-like, easy for construction, easy forassembly, easy for disassembly, or any combination thereof.
 13. Themodular system of claim 1, wherein said cell transporting mechanism andsaid shuttle transporting mechanism comprise rotating wheels adapted tomove said at least one pallet by their rotation, such that said at leastone pallet of said plurality of pallets is transported to and from oneof said plurality of cell units and to and from said at least oneshuttle unit; further wherein the operation of said rotating wheels iscontrolled by said central controller, such that the direction of therotation of said rotating wheels and the rotation time interval are set.14. A method for constructing and operating a modular system for storageof cargo units in a designated space and for effective exploitation ofsaid designated space, said method comprising steps of: a. providing amodular system for storage of cargo units in a designated space and foreffective exploitation of said designated space, said system comprising:(i) a plurality of pallets, each is adapted to carry at least one cargounit; (ii) a plurality of active cell units adapted to form amulti-dimensional structure with at least one row and at least onecolumn of storing locations for at least one of said cargo units; saidat least one row of said multi-dimensional structure is parallel to saidto an axis selected from axis X or axis Y, and said at least one columnof said multi-dimensional structure is parallel to axis selected fromaxis X and axis Y, differently from the axis of said at least one row;each cell unit having a lengthwise axis X, and a widthwise axis Y,parallel to said axis X and said axis Y of said multi-dimensionalstructure; each cell unit comprising an cell transporting mechanismadapted to transport at least one pallet to and from said cell unit indirection selected from said axis X or said axis Y; each cell unitfurther adapted to contain at least one pallet on the same; (iii) atleast one active shuttle unit moveable between said plurality of cellunits of said multi-dimensional structure; said active shuttle unit hasa lengthwise X axis, and a widthwise axis Y, parallel to said axis X andsaid axis Y of said multi-dimensional structure; each shuttle unitcomprising a shuttle transporting mechanism adapted to transport atleast one pallet of said plurality of pallets to and from one of saidplurality of cell units in direction selected from said axis X, and saidaxis Y; said shuttle unit is adapted to enable transportation of atleast one pallet of said plurality of pallets from at least one of saidcell units to another one of said cell units; each shuttle unit furtheradapted to contain at least one pallet of said plurality of pallets onthe same; and, (iv) a central controller adapted to control theoperation of said cell transporting mechanism and said shuttletransporting mechanism of each one of said cell units and each of saidat least one shuttle unit in an independent manner for transporting saidplurality of pallets from one predetermined location to anotherpredetermined location within said system; b. at least partiallyinterconnecting said active cell units, and thereby forming saidmulti-dimensional structure; c. installing said at least one activeshuttle unit between said plurality of cell units of saidmulti-dimensional structure; d. providing at least one cargo unit; e.placing said at least one cargo unit one pallet of said plurality ofpallets at one predetermined location within said system; f. controllingthe operation of said cell transporting mechanism and said shuttletransporting mechanism of each one of said cell units and each of saidat least one shuttle unit via said central controller in an independentmanner, g. transporting said at least one pallet of said plurality ofpallets to and from at least one of said plurality of cell units andsaid at least one active shuttle unit via said cell transportingmechanism and said shuttle transporting mechanism of the same; h.transporting said at least one cargo unit from said one predeterminedlocation to another predetermined location within said system; and, i.storing said at least one cargo unit within said system; wherein saidstep (f) of controlling the operation of said cell transportingmechanism and said shuttle transporting mechanism of each one of saidcell units and each of said at least one shuttle unit is performed insaid independent manner via said central controller, and thereby saidsystem is efficiently exploiting said designated space by means of thenumber of cargo units capable of being inserted and stored within saidsystem by allowing a construction of any arrangement of said cell unitsforming said multi-dimensional structure; wherein said one cell unit ofsaid plurality of cell units comprises a rotating mechanism adapted torotate a pallet located on it in a rotation angle between about 1° toabout 360°, clockwise and counter-clockwise.
 15. The method forconstructing and operating a modular system for storage of cargo unitsof claim 14, further comprising step of lifting said at least one palletof said plurality of pallets via a lifting mechanism in the direction ofaxis Z of said multi-dimensional structure when said multi-dimensionalstructure of said cell units comprising more that more than one layer ofcell units.
 16. The method for constructing and operating a modularsystem for storage of cargo units of claim 14, further comprising stepsof inserting and extracting at least one of said cargo units to and froma specific cell unit within said system via said central controller byarranging and moving said plurality of pallets by an arrangement andmovement selected from a group consisting of: cyclic movement, linearmovement, or any combination thereof; said arrangement and movement ofsaid plurality of pallets is in a direction selected from a groupconsisting of: said axis X, axis Y, axis Z, or any combination thereof.17. The method for constructing and operating a modular system forstorage of cargo units of claim 14, wherein the dimensions of saidmulti-dimensional structure are selected from a group consisting of: 2D,3D, or any combination thereof.
 18. The method for constructing andoperating a modular system for storage of cargo units of claim 14,wherein said system further comprises at least two substantiallyparallel rails on which said at least one shuttle unit is moveablebetween said plurality of cell units.
 19. The method for constructingand operating a modular system for storage of cargo units of claim 14,further comprising step of providing said central controller with a setof predetermined algorithms for any possible structure of saidmulti-dimensional structures; said algorithms are responsible fortransporting said plurality of pallets from one predetermined locationto another predetermined location along a shortest possible route withinsaid multi-dimensional structure.
 20. The method for constructing andoperating a modular system for storage of cargo units of claim 14,further comprising step of providing said system with at least one entryand at least one exit points; said at least one entry and at least oneexit points are selected from one cell unit of said plurality of cellunits or one shuttle unit of said at least one shuttle unit.
 21. Themethod for constructing and operating a modular system for storage ofcargo units of claim 14, wherein said plurality of cell units are atleast partially interconnected by mechanically connected means selectedfrom a group consisting of: shafts, rods, axles, bars, balks, staffs,levers, pales, or any combination thereof.
 22. The method forconstructing and operating a modular system for storage of cargo unitsof claim 14, wherein said system is characterized by a characteristicselected from a group consisting of: kit-like, LEGO-like, easy forconstruction, easy for assembly, easy for disassembly, or anycombination thereof.
 23. The method for constructing and operating amodular system for storage of cargo units of claim 14, wherein said celltransporting mechanism and said shuttle transporting mechanism compriserotating wheels adapted to move said at least one pallet by theirrotation, such that said at least one pallet of said plurality ofpallets is transported to and from one of said plurality of cell unitsand to and from said at least one shuttle unit; further wherein theoperation of said rotating wheels is controlled by said centralcontroller, such that the direction of the rotation of said rotatingwheels and the rotation time interval are set.